eurocode 7 and slope design · 2008-08-31 · 2 principles of ec7 for slope engineering scope of...
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EurocodeEurocode 7 and Slope Design7 and Slope Design
Engineering Sustainable Slopes10th June 2008
Andrew Harris (Geomantix)
Outline of presentationOutline of presentation
• Principles of EC7 for slope engineering• Implications of partial factor system for slopes• Use of existing charts and software• Conclusion
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Principles of EC7 for slope engineeringPrinciples of EC7 for slope engineering
Scope of sections 11 and 12 Scope of sections 11 and 12 of EN 1992of EN 1992--11
Scope• Section 11 covers overall stability of the
ground and movements in the ground related to foundations, retaining structures, natural slopes, embankments, and excavations
• Section 12 covers embankments for small dams and infrastructure
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Application of partial factors and Application of partial factors and tolerancestolerances
d F repF Fγ=
kd
M
XX
γ=
{ }, ,d E d d dE E F X aγ=
{ }, ,d d dd
R
R F X aR
γ=
Actions
Resistances
Effects of actions
Material properties
d noma a a= ± ΔGeometrical parameters
Verification of strengthVerification of strength
Verification of strength is expressed in Eurocode 7 by:
Ed = design effect of actionsRd = design resistance corresponding to that
effect
d dE R≤
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Limits states for slopes and Limits states for slopes and embankmentsembankments
Limit states for slopes in generalLimit states for slopes in general
• Limit states for slopes include:• Loss of overall stability of the ground and
associated structures• Excessive movement• Loss of serviceability
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Verification of strength for GEO/STRVerification of strength for GEO/STR
Design Approaches for STR/GEODesign Approaches for STR/GEO
• §2.4.7.3.4.1(1)P The manner in which equations are applied shall be determined using one of three Design Approaches• Design Approaches apply ONLY to STR and
GEO limit states• Each nation can choose which one (or more)
to allow• only Design Approach 1 is to be used in the
UK• In simplest terms, the design approaches
apply factors to the following…
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Design ApproachesDesign Approaches
Structural actions (or effects)& material properties
Actions (or effects)& resistances
Material properties
ActionsCombination 2Combination 1
321
Design Approach
Partial factors for limit states GEO/STR Partial factors for limit states GEO/STR (DA1) Slopes(DA1) Slopes
γReEarth resistance (Re)
1.0
1.4
(0)1.51.01.35A1
Combination 1
1.0
M1
1.0
R1
γRhSliding resistance (Rh)
γcEffective cohesion (c’)γcuUndrained shear strength (cu)
1.0γRvBearing resistance (Rv)γγWeight density (γ)
γquUnconfined compressive strength (qu)
1.25γφShearing resistance (tan φ)
Symbol
(0)-Favourable1.3γQUnfavourableVariable
action (Q)
(γG,fav)Favourable1.0γGUnfavourablePermanent
action (G)
R1M2A2Combination 2Parameter
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Design Approach 1 for Design Approach 1 for slopes and embankmentsslopes and embankments
Implications of partial factor system Implications of partial factor system for slopesfor slopes
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Stability of infinitely long slopeStability of infinitely long slope
Implications of partial factor system for slopes
Infinitely long slope overlying Infinitely long slope overlying permeablepermeable and impermeable rockand impermeable rock
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Equations for infinite slopeEquations for infinite slope
• Traditional definition of factors of safety
( ) 21 cos tansin cos
u
w wu
c r HF
HhrH
γ β ϕγ β β
γγ
′ + −=
=
Applying partial factorsApplying partial factors
• The design effect of actions may be taken as:
• The design resistance may be taken as:Rd = c’d + (1 – ru ) σvd cos2β tan φd
= c’k + (1 – ru ) γG γk H cos2β tan φk
≤d dE R
σ β β γ γ β β= =sin cos sin cosd vd G kE H
γRe
γφγRe
γc
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Applying partial factorsApplying partial factors
or the design resistance may be taken as:Rd = c’k + (1 – ru ) γG;fav γk H cos2β tan φk
• As long as Rd is at least as great as Ed the requirements of EN 1997-1 are satisfied
γRe
γφγc
Effect of favourable or unfavourableEffect of favourable or unfavourable
• EN 1997-1 applies different partial factors to favourable and unfavourable actions
1.5γQ
1.0γRe
1.01.0
γφ = γc
γcu
1.0γG,fav
1.01.01.31.251.41.0
1.35γG
Combination 2Combination 1Design Approach 1Individual
partial factor
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Unfavourable/favourableUnfavourable/favourable
• In the Ed term the action due to the self-weight of the soil is unfavourable and should be multiplied by γG = 1.35
• In the Rd term the self-weight is favourable and may be multiplied by γG;fav = 1.0
• If this is assumed then Combination 1 always governs for effective stress analysis with an equivalent overall factor of safety of 1.35
• However, is it logical to multiply the same action by different partial factors?
Single source principleSingle source principle
EN 1997-1 Clause 2.4.2 Note• Unfavourable (or destabilising) and
favourable (or stabilising) permanent actions may in some situations be considered as coming from a single source. If they are considered so, a single partial factor may be applied to the sum of these actions or to the sum of their effects.
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Unfavourable/unfavourableUnfavourable/unfavourable
• If self weight is considered unfavourable when assessing both the design effect of the actions and the design resistance, Combination 2 governs for all effective stress cases
• In this case the equivalent factor of safety for the slope is 1.25 except for very low angles of friction and provided there are no variable actions
• Is this large enough?
Unfavourable/favourable? Unfavourable/favourable? (1:3 slope(1:3 slope, , rruu = 0.5= 0.5))
F = 1.25
F = 1.35
F = 1.4
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Stability of a finite slopeStability of a finite slope
Implications of partial factor system for slopes
Key features of circular slip analysisKey features of circular slip analysis
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BishopBishop’’s s ‘‘RoutineRoutine’’ (aka (aka ‘‘SimplifiedSimplified’’) ) MethodMethod
( )
( ){ }
( )tan sec
tan1 tan
sin
i i i i i i i i
i ii
i i ii
cb W Q ub
FF
W Q
φ α
φα
α
⎧ ⎫⎪ ⎪⎪ ⎪⎪ ⎪⎪ ⎪′ + + −⎪ ⎪⎪ ⎪⎨ ⎬⎛ ⎞⎪ ⎪⎟⎪ ⎪⎜ ⎟⎪ ⎪⎜+ ⎟⎪ ⎪⎜ ⎟⎟⎜⎪ ⎪⎝ ⎠⎪ ⎪⎩ ⎭=+
∑
∑
partial factors applied to material properties
partial factors unfavourable
or favourable? partial factors unfavourable on variable actions
Applying partial factors to BishopApplying partial factors to Bishop’’s Methods Method
• In principle the same approach may be adopted as for infinite slopes
• It is complicated by the iterative nature of circular slip analysis (or non-circular)
• It is less clear what parts of the equation are favourable or unfavourable- eg when α is negative the self-weight of the
slip reduces the overturning moment • There is therefore no fully logical way of
applying γG and γG;fav
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Use of existing charts and softwareUse of existing charts and software
Traditional stability chart for infinite Traditional stability chart for infinite slope (1:3 slopeslope (1:3 slope, , rruu = 0.5= 0.5))
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Design Approaches compared Design Approaches compared (1:3 slope(1:3 slope, , rruu = 0.5= 0.5))
Infinite slope Infinite slope -- design chart for design chart for Design Approach 1 Design Approach 1
((rruu = 0.5= 0.5) from Bond & Harris (2008)) from Bond & Harris (2008)
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Slope stability softwareSlope stability software
• Standard slope stability software does not allow different factors to be applied to different parts of the relevant equations
• Combination 1 may be approximated by multiplying the weight density of the soil be 1.35 and any applied variable action by 1.5/1.35 = 1.11- This applies the unfavourable partial factor to
both the favourable and unfavourable elements of the equations
Software (cont)Software (cont)
• Combination 2 is relatively easy to accommodate as the strength parameters may be factored on input. Any variable action may be multiplied by 1.3
• Provided the critical surface has a “factor of safety” greater or equal to 1.0 then the requirements of EN 1997-1 are satisfied
• In principle the results of a DA1-1 and DA1-2 analysis should be compared to identify which is most critical, but it is clear that DA1-2 will govern
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ConclusionConclusion
Eurocode 7 and Slope Design
Summary of key points 1Summary of key points 1
• Unless the ‘Single Source Principle’ is invoked, Eurocode 7 requires different partial factors to be applied to unfavourable and favourable actions, which is not possible with typical limit equilibrium slope stability calculations
• For Design Approach 1, Combination 2 governs the design of slopes and embankments for practical values of soil shearing resistance
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Summary of key points 2Summary of key points 2• As Combination 2 governs is the equivalent
factor of safety = 1.25 adequate?• The logical approach to limit equilibrium slope
stability problems is to factor strength, thus EC7 makes little change
• EC7 defines the minimum required levels of safety, it may be necessary to use higher partial factors
Decoding Eurocode 7Decoding Eurocode 7
• Book published Autumn 2008 by Spon in hardback with colour section
• Authors Andrew Bond (Geocentrix) and Andy Harris (Geomantix)
• Web: www.decodingeurocode7.com• Key features
• Covers EN 1997-1 and -2, plus relevant parts of other Eurocodes
• Also covers associated execution and testing standards
• Explains key principles and application rules with real-life case studies
• Material extensively tested on training courses over 5 years
• ISBN 9780415409483
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‘‘Decoding the EurocodesDecoding the Eurocodes’’ blogblog• Web log (blog) started May 2006• Website: www.eurocode7.com• Aim to post articles at least once a
month• Categories include:
• BGA• Books• BSI• Eurocode 3• Eurocode 7• ICE• IStructE• Seminars• Singapore• Structural Eurocodes• Training courses
EurocodeEurocode 7 and Slope Design7 and Slope Design
www.decodingeurocode7.comwww.eurocode7.com